Abstract 6046: Targeting TBL1 inhibits nuclear β-catenin activity and enhances immune checkpoint inhibition efficacy in osteosarcoma

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Abstract Background: Osteosarcoma (OS) is the most common bone malignancy in childhood and adolescence. Though the prognosis of OS patients has been improved by multimodal therapies, patients with metastatic disease still have a very poor prognosis. We previously reported a novel TBL1/β-catenin inhibitor, Tegavivint, suppresses OS primary tumor and lung metastasis using patient-derived cell lines. Wnt/β-catenin signaling is reported to influence intratumoral T cell infiltration and using murine syngeneic OS models we investigated the effects of Tegavivint on improving immune checkpoint inhibition and the OS tumor immune microenvironment. Methods: We used murine OS cell lines F331 and F420 for in vitro and in vivo studies. We performed cytotoxicity studies using the CCK-8 assay and western blots to investigate downstream β-catenin signaling perturbations secondary to Tegavivint. Intratibial injections were performed into C57BL/6 mice using both murine cell lines. Tegavivint and anti-PD-1 antibody was administered as monotherapy or in combination. After treatment, we compared the tumor volume in the control, monotherapy (Tegavivint or PD-1 only) and combination therapy groups (Tegavivint and PD-1). We assessed T cell tumor infiltration using immunohistochemistry and flow cytometry. Results: In vitro, Tegavivint suppresses the growth of F331 and F420 cell lines with IC50s of 9.52nM and 49.4nM, respectively after 72hours of treatment. In vivo, anti-PD1 monotherapy did not show any significant anti-tumor activity, but Tegavivint monotherapy significantly suppressed the growth of murine tumors (p<0.05) and the combination therapy further improved overall anti-tumor activity. IHC staining showed an increase in CD8-positive T cells in Tegavivint monotherapy and combination therapy treated tumors compared with the control tumors. Furthermore, flow cytometry validated the increase in CD8-positive T cell infiltration and also showed an increase in intratumoral NK cells in Tegavivint treated tumors. Conclusions: These results indicate that TBL1 inhibition, via Tegavivint, inhibits nuclear β-catenin activity and alters the tumor immune microenvironment and enhances immune checkpoint blockade in OS. Future directions include more comprehensive profiling and molecular analysis of the tumor and immune microenvironment, and evaluation of additional immune modulatory approaches for the treatment of OS. Citation Format: Kengo Nakahata, Bikesh K. Nirala, Ryan L. Shuck, Lyazat Kurenbekova, Jason T. Yustein. Targeting TBL1 inhibits nuclear β-catenin activity and enhances immune checkpoint inhibition efficacy in osteosarcoma [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2022; 2022 Apr 8-13. Philadelphia (PA): AACR; Cancer Res 2022;82(12_Suppl):Abstract nr 6046.